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Convection in Fluids
Kategorie	Beschreibung
036a	XA-NL‡XA-DE
037b	eng
077a	306605066 Druckausg.: ‡Zeytounian, Radyadour Kh., 1928 - : Convection in fluids
087q	978-90-481-2432-9
100	Zeytounian, R. Kh
331	Convection in Fluids
410	Dordrecht ; Heidelberg ; London ; New York, NY
412	Springer
425	2009
425a	2009
433	Online-Ressource (XV, 396 p, online resource)
451	Fluid Mechanics and its Applications ; 90
501	Description based upon print version of record
517	CONTENTS; Preface and Acknowledgments; 1 Short Preliminary Comments and Summary ofChapters 2 to 10; 1.1 Introduction; 1.2 Summary of Chapters 2 to 10; References; 2 The Navier-Stokes-Fourier System of Equations andConditions; 2.1 Introduction; 2.2 Thermodynamics; 2.3 NS-F System for a Thermally Perfect Gas; 2.4 NS-F System for an Expansible Liquid; 2.5 Upper Free Surface Conditions; 2.6 Influence of Initial Conditions and Transient Behavior; 2.7 The Hills and Roberts' (1990) Approach; References; 3 The Simple Rayleigh (1916) Thermal Convection Problem; 3.1 Introduction. 3.2 Formulation of the Starting à la Rayleigh Problem for Thermal Convection3.3 Dimensionless Dominant Rayleigh Problem and theBoussinesq Limiting Process; 3.4 The Rayleigh-Bénard Rigid-Rigid Problem as a Leading-Order Approximate Model; 3.5 Second-Order Model Equations Associated with the RB Shallow Convection Equations (3.25a-c); 3.6 Second-Order Model Equations Following from the Hills and Roberts Equations (2.70a-c); 3.7 Some Comments; References; 4 The Bénard (1900,1901) Convection Problem, Heated from Below; 4.1 Introduction; 4.2 Bénard Problem Formulation, Heated from Below. 4.3 Rational Analysis and Asymptotic Modelling4.4 Some Complements and Concluding Remarks; References; 5 The Rayleigh-Bénard Shallow Thermal Convection Problem; 5.1 Introduction; 5.2 The Rayleigh-Bénard System of Model Equations; 5.3 The Second-Order Model Equations, Associated to RBEquations; 5.4 An Amplitude Equation for the RB Free-Free Thermal Convection Problem; 5.5 Instability and Route to Chaos in RB Thermal Convection; 5.6 Some Complements; References; 6 The Deep Thermal Convection Problem; 6.1 Introduction; 6.2 The Deep Bénard Thermal Convection Problem. 6.3 Linear-Deep-Thermal Convection Theory6.4 Routes to Chaos; 6.5 Rigorous Mathematical Results; References; 7 The Thermocapillary, Marangoni, Convection Problem; 7.1 Introduction; 7.2 The Formulation of the Full Bénard-MarangoniThermocapillary Problem; 7.3 Some 'BM Long-Wave' Reduced Convection Model Problems; 7.4 Lubrication Evolution Equations for the Dimensionless Thickness of the Film; 7.5 Benney, KS, KS-KdV, IBL Model Equations Revisited; 7.6 Linear and Weakly Nonlinear Stability Analysis; 7.7 Some Complementary Remarks; References. 8 Summing Up the Three Significant Models Related with theBénard Convection Problem8.1 Introduction; 8.2 A Rational Approach to the Rayleigh-Bénard Thermal Shallow Convection Problem; 8.3 The Deep Thermal Convection with Viscous Dissipation; 8.4 The Thermocapillary Convection with Temperature- Dependent Surface Tension; References; 9 Some Atmospheric Thermal Convection Problems; 9.1 Introduction; 9.2 The Formulation of the Breeze Problem via the Boussinesq Hydrostatic Approximation; 9.3 Model Problem for the Local Thermal Prediction - A Triple Deck Viewpoint. 9.4 Free Convection over a Curved Surface - A Singular Problem
527	Druckausg.: ‡Zeytounian, Radyadour Kh., 1928 - : Convection in fluids
540a	ISBN 978-90-481-2433-6
700	\|TGMF
700	\|TGMF1
700	\|TEC009070
700	\|SCI085000
700	\|*76-01
700	\|76E06
700	\|76M45
700	\|80A20
700b	\|620.1064
700b	\|536.25
700b	\|620
700c	\|TA357-359
700g	1270714899 UF 4000
700m	\|620.106
750	Aims to present a unified rational approach of various convective phenomena in fluids (mainly considered as a thermally perfect gas or an expansible liquid), where the main driving mechanism is the buoyancy force (Archimedean thrust) or temperature-dependent surface tension in homogeneities (Marangoni effect)
902s	209511109 Konvektion
902s	209206705 Strömungsmechanik
902f	00000129 Online-Publikation
907s	209206705 Strömungsmechanik
012	310023181
081	Zeytounian, R. Kh: Convection in Fluids
100	Springer E-Book
125a	Elektronischer Volltext - Campuslizenz
655e	$uhttp://dx.doi.org/10.1007/978-90-481-2433-6